Basic Unit Convertion
description
Transcript of Basic Unit Convertion
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UNIT-3 UNITS AND CONVERSION FACTORS
Table of Contents
Section Page
1.0 Decimal Multiples and Submultiples 3 2.0 Description of Units
(Mechanical, Electric, Magnetic) 33.0 Equivalent Units mksq System 44.0 Dimensions of esu and emu Electric and Magnetic Quantities 5.0 Dimensions and Units for Physical Quantities mksq System 4 A. Mechanical 5-6 B. Thermal 5 C. Electric and Magnetic 66.0 Conversion of mksq Units to Gaussian Units 67.0 Conversion Factors 6. 7-22 A. Plane Angle 7 B. Solid Angle 7 C. Length 8 D. Area 8 E. Volume 8 F. Mass 9 G. Density 9 H. Time 10 I. Speed 10 J. Force 10 K. Pressure 11 L. Energy, Work, Heat 12 M. Specific Energy 13 N. Specific Energy Per Unit Temp. 14 O. Power 15 P. Heat Flux 16 Q. Heat Transfer Coefficient 16 R. Thermal Conductivity 17 S. Absolute Viscosity 18 T. Kinematic Viscosity 18 AA. Electric Charge 19 BB. Electric Current 19 CC. Electric Potential 19 DD. Electric Resistance 20 EE. Electric Resistivity 20 FF. Capacitance 20 GG. Inductance 21
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1.0 DECIMAL MULTIPLES AND SUB-MULTIPLES
Name Symbol Equivalent Name Symbol Equivalent
tera T 1012 deci d 10-1 giga G 109 centi c 10-2 mega M 106 milli m 10-3 kilo k 103 micro 10-6 hecto h 102 nano n 10-9
deca 10 pico p 10-12
2.0 DESCRIPTION OF UNITS
MECHANICAL UNITS
Quantity
cgs
mks
Length centimeter meter
Mass gram kilogram
Time second second
Force dyne newton
Work, Energy erg joule
Power watt
Dynamic Viscosity poise
Kinematic Viscosity stoke
ELECTRIC AND MAGNETIC UNITS
The esu and emu unit systems are cgs systems.
esu denotes electrostatic unit, sometimes given prefix stat, e.g. statcoulomb emu denotes electromagnetic unit, sometimes given prefix ab, e.g. abcoulomb Some emu units have special names:
Quantity emu mksq
Magnetic Flux, line
weber maxwell
weber/m2
Magnetic Field Strength, B gauss
Magnetomotive Force, F gilbert amp-turn
Magnetic Vector, H oersted amp-turn/m.
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3.0 EQUIVALENT UNITS MKS SYSTEM
1 newton = 1 kilogram-meter/(second)2 1 volt = 1 newton-meter/coulomb 1 amp = 1 coulomb/second 1 joule = 1 newton-meter = 1 coulomb-volt 1 weber = 1 volt-second 1 farad = 1 coulomb/volt 1 henry = 1 weber/amp 1 ohm = 1 volt/amp 1 watt = 1 joule/sec
4.0 DIMENSIONS OF esu AND emu ELECTRIC AND MAGNETIC QUANTITIES
The fundamental dimensions in both systems are M, L, T. cgs units used.
esu emu
Quantity Symbol MxLyTz MxLyTz
x y z x y z
Charge q 3 -1 0 2
Field Intensity E
3 0
- -1 2
Elec. Displacement D - -1 -2
Charge Density 3 2 -1 5 0 2
Current Density j - -2 3 -1 2
Elec. Potential V -1 3 -2 2
Total Current I 3 -2 -1 2
Mag. Field Strength B
3 2 0 - -1
Mag. Vector H -2 - -1
Permittivity 0 0 0 0 -2 2
Permeability 0 -2 2 0 0 0
Conductivity 0 0 -1 0 -2 1
Capacitance C 0 1 0 0 -1 2
Inductance L 0 -1 2 0 1 0
Resistance R 0 -1 1 0 1 -1
*c = velocity of light (free space) in cm/sec 3 1010 Thus: 1 emu of charge = 2.998 1010 esu of charge
or 1 abcoulomb = 2.998 1010 statcoulomb
emu
esu
c 1/c c c c 1/c c 1/c c
c2
1/c2 c
2
c2
1/c2 1/c2
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5.0 DIMENSIONS AND UNITS FOR PHYSICAL QUANTITIES
mksq SYSTEM
A. MECHANICAL QUANTITIES
Quantity
Dimensions
Derived Units
Acceleration LT-2 meter/sec2
Angle 0 radian
Angular Accleration T-2 radian/sec2
Angular Momentum ML2T-1 kgm-meter2/sec
Angular Velocity T-1 radian/sec Area L2 meter2
Energy ML2T-2 joule
Force MLT-2 newton
Frequency T-1 cycle/sec Gravitational Field Strength LT-2 newton/kgm
Length L meter
Mass M kilogram
Mass Density ML-3 kgm/meter2
Momentum MLT-1 kgm-meter/sec
Power ML2T-3 watt
Pressure ML-1T-2 newton/meter2
Time T second
Torque ML2T-2 newton/meter
Velocity LT-1 meter/sec
Viscosity (Dynamic) ML-1T-1 kgm/meter-sec Viscosity (Kinematic) L2T-1 meter2/sec Volume L3 meter
3
Wave Length L meter
Work ML2T-2 joule
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B. THERMAL QUANTITIES*
Quantity
Dimensions
Derived Units
Enthalpy ML2T-2 joule
Entropy ML2T-2-1 joule/K
Gas Constant L2T-2-1 joule/kgm- K Internal Energy ML2T-2 joule
Specific Heat L2T-2-1 joule/kgm-K
Temperature K
Thermal Conductivity MLT-3-1 watt/meter- K
Thermal Diffusivity L2T-1 meter2/sec
Heat Transfer Coefficient MT-3-1 watt/meter2- K
*The dimension of temperature is ; the unit is K
C. ELECTRIC AND MAGNETIC QUANTITIES
Quantity
Symbol
Dimensions
Derived Units
Charge q Q coulomb
Field Intensity E MLT-2Q-1 volt/meter
Elec. Displacement D L-2Q coulomb/meter2
Charge Density L-3Q coulomb/meter2
Current Density j L-2T-1Q amp/meter2
Elec. Potential V ML2T-2Q-1 volt Total Current I T-1Q coulomb/sec
Mag. Field Strength B MT-1Q-1 weber/meter2
Mag. Vector H L-1T-1Q amp(turn)/meter
Permittivity M-1L-3T2Q2 farad/meter Permeability MLQ-2 henry/meter
Conductivity M-1L-3TQ2 1/ohm-meter
Capacitance C M-1L-2T2Q2 farad Inductance L ML2Q-2 henry
Resistance R ML2T-1Q-2 ohm
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6.0 CONVERSION OF mksq UNITS TO GAUSSIAN UNITS
Quantity mksq Unit Conversion Factor Gaussian Unit*
q coulomb = 10-1 c statcoulomb (esu) E volt/meter = 106/c statvolt/cm (esu) D coulomb/meter2 = 4pi 10-5 c lines/cm2 (esu) coulomb/meter3 = 10-7 c statcoulomb/cm3 (esu) j amp/meter2 = 10-5 abamp/cm2 (emu) V volt = 108/c statvolt (esu) I coulomb/sec : = amp = 10-1 abamp (emu) B weber/meter2 = 104 gauss (emu) H amp-turn/meter = 4pi 10-3 oersted (emu) farad/meter = 4pi 10-11c2 (esu) henry/meter = 107/4pi (emu) 1/ohm-meter = 10-11 1/abohm-cm (emu) C farad = 10-9c2 statfarad (esu) L henry = 109 abhenry (emu) R ohm = 109 abohm (emu)
*c = vel. of light (free space) in cm/sec 3 1010
Use of table:
1 coulomb = 10-1 (3 1010) statcoulomb = 3 109 statcoulomb
7.0 CONVERSION FACTORS NOTE: mksq UNITS ARE CAPITALIZED USE OF TABLES: EXAMPLE 1 degree = 2.778 10-3 revolutions
so, 16.7o = 16.7 2.778 10-3 revolutions
A. PLANE ANGLE
o RADIAN rev
1 degree = 1 60 3600 1.745 10-2 2.778 10-3 1 minute = 1.667 10-2 1 60 2.909 10-4 4.630 10-5 1 second = 2.778 10-4 1.667 10-2 1 4.848 10-4 7.716 10-7 1 RADIAN = 57.30 3438 2.063 105 1 0.1592
1 revolution = 360 2.16 104 1.296 105 6.283 1
1 revolution = 2 pi RADIANS = 360o , 1o = 60 = 3600
B. SOLID ANGLE
1 sphere = 4 pi steradians = 12.57 steradians
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C. LENGTH
cm METER km in ft mile
1 centimeter = 1 10-2 10-5 0.3937 3.281 10-2 6.214 10-6 1 METER = 100 1 10-3 39.37 3.281 6.214 10
-4
1 kilometer = 105 1000 1 3.937 10-4 3281 0.6214 1 inch = 2.540 2.540 10-2 2.540 10-3 1 8.333 10-2 1.578 10-5 1 foot = 30.48 0.3048 3.048 10-4 12 1 1.894 10-4 1 statute mile = 1.609 105 1609 1.609 6.336 104 5280 1
1 foot = 1200/3937 meter 1 light-year = 9.460 1012 km 1 meter = 3937/1200 ft 1 par-sec = 3.084 1013 km 1 angstrom () = 10-10 meter 1 fathom = 6 ft 1 X-unit = 10-13 meter 1 yard = 3 ft 1 micron = 10-6 meter 1 rod = 16.5 ft 1 millimicron (mu) = 10-9 meter
1 mil = 10-3 in
1 nautical mile = 1852 meters = 1.1508 statute miles 1 nautical mile = 6076.10 ft
D. AREA
METER2 cm2 ft2 in2 circ mil
1 SQUARE METER = 1 104 10.76 1550 1.974 109 1 square cm = 10-4 1 1.076 10
-3
0.1550 1.974 105 1 square foot = 9.290 10-2 929.0 1 144 1.833 108 1 square inch = 6.452 10-4 6.452 6.944 10-3 1 1.273 106 1 circular mil = 5.067 10-10 5.067 10-6 5.454 10-3 7.854 10-7 1
1 square mile = 27,878,400 ft2 = 640 acres
1 acre = 43,560 ft2 1 barn = 10-28 meter2 1 hectare = 2.417 acres
E. VOLUME
METER3 cm3 liter ft3 in3
1 CUBIC METER = 1 106 1000 35.31 6.102 104 1 cubic cm = 10-6 1 1.000 10-3 3.531 10-8 6.102 10-2 1 liter = 1.000 10-3 1000 1 3.531 10-2 61.02 1 cubic foot = 2.832 10-2 2.832 104 28.32 1 1728
1 cubic inch = 1.639 10-5 16.39 1.639 10-2 5.787 10-4 1
1 U.S. fluid gallon = 4 U.S. fluid quarts = 8 U.S. fluid pints =128 U.S. fluid ounces = 231 in3 1 British imperial gallon = 277.42 in3 (volume of 10 lb H2O at 62o F)
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F. MASS
gm KGM slug amu oz lb ton
1 gram = 1 0.001 6.852 6.024 3.527 2.205 1.102
10-5 1023 10-2 10-3 10-6
1 KILOGRAM = 1000 1 6.852 6.024 35.27 2.205 1.102
10-2 1026
10-3
1 slug = 1.459 14.59 1 8.789 514.8 32.17 1.609
10-4
1027
10-2 1 amu = 1.660 1.660 1.137 1 5.855 3.660 1.829 10-24 10
-27 10-28 10
-26 10-27 10-30
1 ounce (avoirdupois) = 28.35 2.835 1.943 1.708 1 6.250 3.125
10-2 10-3 1025
10-2 10-5
1 pound (avoirdupois)= 453.6 0.4536 3.108 2.732 16 1 0.0005
10-2 1026
1 ton = 9.072 907.2 62.16 5.465 3.200 2000 1
10-5
1029 104
NOTE FOR TABLE F: Portion of table enclosed in heavy lines must be used with caution because those units are not properly mass units but weight equivalents which depend on standard terrestrial acceleration due to gravity, i.e. g.
G. DENSITY
slug/ft3 KGM/M3 gm/cm3 lb/ft3 lb/in3
1 slug per ft3 = 1 515.4 0.5154 32.17 1.862 10-2 1 KILOGRAM per 1.940 1 0.001 6.243 3.613
METER3 = 10-3 10-2 10-5
1 gm per cm3 = 1.940 1000 1 62.43 3.613 10-2
1 pound per ft3=
3.108 10-2 16.02 1.602 10-2 1 5.787 10-4
1 pound per in3 = 53.71 2.768 104 27.68 1728 1
NOTE FOR TABLE G: Portion of table enclosed in heavy lines must be used with caution because those units are not mass-density units but weight-density units which depend on g.
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H. TIME
yr day hr min SECOND
1 year = 1 365.2 8.766 103 5.259 103 3.156 107
1 day = 2.738 10-3 1 24 1440 8.640 104
1 hour = 1.141 10-4 4.167 10-2 1 60 3600 1 minute = 1.901 10-6 6.944 10-4 1.667 10-2 1 60 1 SECOND = 3.169 10-8 1.157 10-5 2.778 10-4 1.667 10-2 1
1 year = 365.24219879 days
I. SPEED
ft/sec km/hr METER/SEC miles/hr cm/sec knot
1 foot per second = 1 1.097 0.3408 0.6818 30.48 0.5925
1 kilometer per hour = 0.9113 1 0.2778 0.6214 27.78 0.5400
1 METER per SECOND = 3.281 3.600 1 2.237 100 1.944
1 mile per hour = 1.467 1.609 0.4770 1 44.70 0.8689
1 centimeter per sec = 3.281 10-2 3.600 10-2 0.0100 2.237 10-2 1 1.944 10-2
1 knot = 1.688 1.852 0.5144 1.151 51.44 1
1 knot = 1 nautical mile/hr 1 mile/min = 88 ft/sec
= 60 miles/hr
J. FORCE
dyne NT lb pdl gf kgf
1 dyne = 1 10-5 2.248 7.233 1.020 1.020
10-6 10-5 10-3 10-6
1 NEWTON = 105 1 0.2248 7.233 102.0 0.1020
1 pound =
4.480
4.448
1
32.17
453.6 0.4536
105
1 poundal = 1.383
0.1383 3.108
1
14.10 1.410
104
10-2
10-2
1 gram-force = 980.7
9.807
2.205
7.093
1 0.001
10-3 10-3 10-2
1 kilogram-force = 9.807 9.807 2.205 70.93 1000 1
10 5
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NOTE FOR TABLE J: Portion of table enclosed in heavy lines must be used with caution because those units are not force units but weight equivalents of mass which depend on g.
1 kgf = 9.80665 newton 1 lb = 32.17398 poundal
K. PRESSURE
atm dyne/cm2 inch of cm Hg NT/METER2 lb/in2 lb/ft2 water
1 atmosphere = 1 1.013 406.8 76 1.013 14.70 2116
106
105
1 dyne per cm2 = 9.869 1 4.015 7.501 0.100 1.450 2.089
10-7
10-4 10-5
10-5 10-3 1 inch of water 2.458 2.491 1 0.1868 249.1 3.613 5.202
at 4oCa = 10-3 10-2 1 centimeter of 1.316 1.333 5.353 1 1333 0.1934 27.85
mercury at 0oCa = 10-2 104 1 NEWTON per 9.869 10 4.015 7.501 1 1.450 2.089
METER2 = 10-6 10-3 10-4 10-4 10-2 1 pound per in2 = 6.805 6.895 27.68 5.171 6.895 1 144
10-2 104
103
1 pound per ft2 = 4.725 478.8 0.1922 3.591 47.88 6.944 1
10-4
10-2
10-3
a Where the acceleration of gravity has the standard value 9.80665
meter/sec2 1 bar = 106 dyne/cm2 1 millibar = 103 dyne/cm2
1 torr (mm Hg at 0C) = 1.93367 10-2 lb/ft2
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Btu erg ft-lb hp-hr JOULES cal kw-hr ev Mev kgm
1 British thermal 1 1.055 777.9 3.929 1055 252.0 2.930 6.585 6.585 1.174 unit = 1010 10-4 10-4 1021 1015 10-14 1 erg = 9.481 1 7.376 3.725 10-7 2.389 2.778 6.242 6.242 1.113 10-11 10-8 10-14 10-8 10-14 1011 105 10-24 1 foot-pound = 1.285 1.356 1 5.051 1.356 0.3239 3.766 8.464 8.464 1.509
10-3 107
10-7
10-7 1018 1012 10-17 1 horsepower- 2545 2.685 1.980 1 2.685 6.414 0.7457 1.676 1.676 2.988 hour = 10-13 106 106 105 1025 1019 10-11 1 JOULE = 9.481 107 0.7376 3.725 1 0.2389 2.778 6.242 6.242 1.113
10-4
10-7
10-7 1018 1012 10-17 1 calorie = 3.968 4.186 3.087 1.559 4.186 1 1.163 2.613 2.613 4.659
10-3 107
10-6
10-6 1019 1013 10-17 1 kilowatt-hour = 3413 3.6 2.655 1.341 3.6 8.601 1 2.247 2.247 4.007
1013 106
106 105
1025 1019 10-11 1 electron volt = 1.519 1.602 1.182 5.967 1.602 3.827 4.450 1 10-6 1.783
10-22 10-12 10-19 10-26 10-19 10-20 10-26
10-36 1 million electron 1.519 1.602 1.182 5.967 1.602 3.827 4.450 106 1 1.783
volts = 10-16 10-6 10-13 10-20 10-13 10-14 10-20 10-30 1 kilogram = 8.521 8.987 6.629 3.348 8.987 2.147 2.497 5.610 5.610 1
10-13 1023 1016 1010 1016 1016 1010 1035 1029
1 atomic mass unit = 1.415 1.492 1.100 5.558 1.492 3.564 4.145 9.310 931.0 1.660
10-13 10-3 10-10 10-17
10-10 10-11 10-17 108
10-27
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1 meter kgf = 9.807 joule, 1 watt-sec = 1 joule = 1 nt-meter, 1 cm-dyne = 1 erg Some conversions used in spectroscopy:
1 eV = 8065.7 cm-1 1 cm-1 = 0.000124 eV
1 eV 6000K At 300K, 3 kT 0.05 eV 2
NOTES FOR TABLE L: The electron volt is the kinetic energy an electron gains from being accelerated through the potential difference of one volt in an electric field. The units enclosed by heavy lines are not properly energy units; they arise from the relativistic mass-energy equivalent formula E = mc2.
M. SPECIFIC ENERGY
cal erg JOULE Btu ft - lbf hp - hr
gm gm KGM lbm lbm lb m
1 calorie per
1
4.186 4.186 1.800
1.400 7.072
gram = 107 103 103 10-4
1 erg per gram = 2.389 4.299 3.346 1.690
10-8 1 10-4 10-8 10-5 10-11
1 JOULE per 2.389 104
4.299
0.3346
1.690
KILOGRAM = 10-4 1 10-4 10-7
1 Btu per 0.5557
2.326 2.326 1
777.9 3.929
pound (mass)= 107 103 10-4
1 foot-pound per 7.142 2.990 2.990 1.285 1
5.051
pound (mass)= 10-4 104 10-3 10-7
1 horsepower-hour 1.414 5.920 5.920 1.980
per pound (mass)= 103 1010 106 2.545 106 1
(SEE NOTE FOR TABLE N)
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N. SPECIFIC ENERGY PER UNIT TEMPERATURE
cal erg JOULE Btu ft - lbf hp - hr
KGM K
lbm F
lb m F
gmC
gmC lbm F
1 calorie per gram 4.186 4.186 1.000
777.9 3.929
per degree C = 1
107
103
10-4
1 erg per gram
2.389
1
10-4 2.388 1.859 9.376
per degree C = 10-8 10-8 10-5 10-12
1 JOULE per KGM 2.389 104 1 2.388 0.1859
9.376
per DEGREE K = 10-4 10-4 10-8
1 Btu per lb (mass) =
1.000 4.187 4.187 1
777.9 3.929
per degree F 107 103 10-4
1 foot-lb per lb (mass) 1.286 5.382 5.382 1.285 1 5.051
per degree F = 10-3 104 10-3 10-7
1 horsepower-hour per 2.546 1.066 1.066 2.545
1.980 1
lb (mass) per degree F=
103
1011
107
106
NOTE FOR TABLES M & N: The engineering units enclosed within the heavy lines have been properly related to the pound mass rather than the pound force because these specific thermal quantities depend on unit mass and have nothing to do with weight. However, in engineering practice it is customary to relate energy and energy per degree to weight. Thus we speak of Btu/lb, ft-lb/lb and hp-hr/lb of weight. The conversion factors given in Tables M & N are equally valid for this purpose if the local acceleration of gravity if the earth standard value of g = 32.174 ft/sec2 = 9.80665 meter/sec2. This is true because the pound-force and the pound-mass are numerically equal at standard gravity. It should be realized that relating specific quantities to weight, rather than mass, involves a change of concept because weight and mass are not dimensional equivalents. The relation between units of mass and weight is not a relation between the concepts of mass and weight. The units are related by
lbf = 32.174 lbm ft/sec2
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O. POWER
Btu Btu ft - lb ft - lb hp cal kw WATT
hr
sec
min
sec
sec
1 British thermal 1 2.778 12.97 0.2161 3.929 7.000 2.930 0.2930
unit per hour = 10-4 10-4 10-2 10-4
1 British thermal 3600 1 4.669 777.9 1.414 252.0 1.055 1.055
unit per second = 104 103
1 foot-pound per 7.713 2.142 1 1.667 3.030 5.399 2.260 2.260
minute = 10-2 10-5 10-2 10-5 10-3 10-5 10-2
1 foot-pound per
4.628
1.286 60 1 1.818 0.3239 1.356 1.356 second = 10-3
10-3
10-3
1 horsepower = 2545 0.7069 3.3 550 1 178.2 0.7457 745.7
104
1 calorie per
14.29 0.3950
1.852 3.087 5.613 1 4.186 4.186
second = 102 10-3 10-3
1 kilowatt = 3413 0.9481 4.425 737.6 1.341 238.9 1 1000
104
1 WATT = 3.413
9.481
44.25 0.7376 1.341
0.2389 0.001 1
10-4 10-3
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P. HEAT FLUX*
cal kilocal WATT watt Btu Btu hp
sec - cm2
hr m2
M 2
in2
hr- ft2
sec- in2
ft 2
1 calorie per sec 1
3.600 4.185 27.00
1.327 2.560 5.212
per centimeter2 =
104
104
104
10-2
1 kilocalorie per hour 2.778
1
1.163
7.500
0.3687
7.112 1.448
per meter2 = 10-5 10-4 10-7 10-4
1 WATT per 2.390
0.8602
1
6.452
0.3171
6.117 1.246
METER2 = 10-5 10-4 10-7 10-4
1 watt per inch2 = 3.704
1.333
1550
1
491.5
9.481
0.1931
10-2
10-4
1 British thermal unit 7.535 2.713
3.153 2.035
1 1.929 3.928
per hour per foot2 = 10-5 10-3 10-6 10-4
1 British thermal unit = 39.06
1.406 1.635 1.055 5.184 1 203.6
per sec per inch2
106
106
103 105
1 horsepower per 0.1918
6.905 8027
5.179 2.546 4.911
1
foot2 = 102 103 10-3
1 calorie per sec per centimeter2 - C =
1 WATT per METER2 per DEG KELVIN =
1 watt per inch2 per
deg Centigrade =1 Btu per hour per
per foot2 - F =1 Btu per sec per
inch2 - F =1 horsepower per
foot2 - F =
*Also power per unit area
Q. HEAT TRANSFER COEFFICIENT, h
cal WATT watt Btu Btu hp
sec - in 2
F
seccm2C M2 K in2 C
hr - ft2
F
ft2F
1 4.185
27.00 7.372 1.422 2.895 104
103
10-2
2.390
1
6.452 0.1762
3.398 6.922
10-5
10-4
10-7 10-5
3.704 1550
1
273.1 5.267
0.1073
10-2
10-4
1.356 5.675 3.663 1 1.929 3.928
10-4
10-3
10-6 10-4
70.31 2.943 1.899 5.184
1
203.6
10 6 10 3 10 5
0.3452 1.445
9.322 2.546 4.911
1
10 4 10 3 10 -3
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R. R. THERMAL CONDUCTIVITY, k
cal WATTS watts Btu Btu hp
METERK
hr - ft F
sec - in F
ft F
seccm C in C
1 calorie per sec per 1 418.5 10.63 241.9 5.600 9.503
centimeter-deg C =
10-3
10-2
1 WATT per METER 2.390
1
2.540 0.5781
1.338 2.271
10-3
per DEG KELVIN = 10-2 10-5 10-4
1 watt per inch per 9.407
39.37
1 22.76 5.269 8.939
10-2
10-4
10-3
deg Centigrade =
1 Btu per hour per 4.134 1.730 4.394 1 2.315 3.929
foot-deg F = 10-3 10-2 10-3 10-4
1 Btu per sec per 1.786 7.474 1.898 4.320 1 16.97
inch-deg F =
102
104
103 104
1 horsepower per
10.52
4403
111.8 2546 5.894 1
foot-deg F =
10-2
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S. ABSOLUTE OR DYNAMIC VISCOSITY,
centipoise poise kgm f sec lb sec KGM lb m
MSEC
ft 2
ft sec
meter2
1 centipoise = 1 10-2 1.020 2.089 10-3 6.720
10-4
10-5
10-4
1 poise = 100 1 1.020 2.089 0.100
6.720
10-2 10-3 10-2
1 kg (force) sec 9.807 98.07
1
0.2048
9.807
6.590
per meter2 = 103
1 lb (force) sec =
4.788 4.788 4.882 1 47.88 32.174
per foot 2 104 102
1 KILOGRAM per = 10
3 10
0.1020 2.089
1
0.6720
METER-SEC 10 -2
1 lb (mass) per 1.488 3.108 1.488 1
foot sec = 103 14.88 0.1518 10-2
NOTE FOR TABLE S: The absolute viscosity is properly expressed in force units according to its definition. In heat transfer and fluid mechanics it is usually expressed in mass-equivalent units to avoid the use of a conversion factor in Reynolds Number. Mass units have been used in the portion of the table enclosed in heavy lines. The proper force units for in the mksq system are NEWTON-SEC per METER2; they are seldom used. The poise is the cgs force unit and is defined by
1 poise = 1 dyne - second
centimeter2
T. KINEMATIC VISCOSITY, =
centistoke stoke METER2/SEC ft2/sec
1 centistoke = 1 10-2 10-6 1.076 10-5
1 stoke = 100 1 10-4 1.076 10-3
1 METER2/SEC = 106 104 1 10.76
1 ft2/sec = 9.290 104 929.0 9.290 10-2 1
1 stoke = 1 centimeter2/sec
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AA. ELECTRIC CHARGE
abcoul amp-hr COUL faraday statcoul
1 abcoulomb 1
2.778 10
1.036 2.998
(1 emu) = 10-3 10-4 1010
1 ampere-hour = 360 1 3600 3.730 1.079
10-2 1013
1 COULOMB = 0.100 2.778 1 1.036 2.998
10-4 10-5 109
1 faraday = 9.652 26.81
9.652 1 2.893
103 104
1014
1 statcoulomb 3.336 9.266 3.336 3.456 1
(1 esu) = 10-11 10-14 10-10 10-15
1 electronic charge = 1.602 10-19 coulombs
= (1.602 10-19)(2.998 109) statcoulomb
= 4.8 10-10 esu
BB. ELECTRIC CURRENT
abamp AMP statamp
1 abampere (1 emu) = 1 10 2.998 1010
1 AMPERE = 0.100 1 2.998 109
1 statampere (1 esu) = 3.336 10-11 3.336 10-10 1
CC. ELECTRIC POTENTIAL, ELECTROMOTIVE FORCE
abv VOLT statv
1 abvolt (1 emu) = 1 10-8 3.336 10-11
1 VOLT = 108 1 3.336 10-3
1 statvolt (1 esu) = 2.998 1010 299.8 1
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DD. ELECTRIC RESISTANCE
abohm OHM statohm
1 abohm (1 emu) = 1 10-9 1.113 10-21
1 OHM = 109 1 1.113 10-12
1 statohm (1 esu) = 8.987 1020 8.987 1011 1
EE. ELECTRIC RESISTIVITY, RECIPROCAL CONDUCTIVITY
1 abohm-centimeter
(1 emu) =
1 ohm-centimeter =
1 OHM-METER =
1 statohm-centimeter
(1 esu) =
1 ohm-circular mil
per foot =
1 abfarad (1 emu) =
1 FARAD =
1 microfarad =
1 statfarad (1 esu) =
abohm-cm ohm-cm OHM-M statohm-cm
1 10-9 10-11 1.113
10-21
10 9 1 0.0100 1.113
10-12
10 11 100 1 1.113
10-10
8.987 8.987 8.987 1
1020 1011 109
166.2 1.662 1.662 1.850
10-7 10-9 10-19
FF. CAPACITANCE
abf FARAD f
1 109 1015
10-9 1 106
10-15 10-6 1
1.113 1.113 1.113
10-21 10-12 10-6
ohm-circ mil/ft 6.015 10-3
6.015 106
6.015 108
5.406
1018
1
statf
8.987
1020
8.987 1011
8.987
105
1
21
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GG. INDUCTANCE
abhenry HENRY h stathenry
1 abhenry =
1 10-9 0.001 1.113
(1 emu) 10-21
1 HENRY = 10 9 1 10 6 1.113
10-12
1 microhenry = 103 10-6 1 1.113
10-18
1 stathenry 8.987 8.987 8.987 1 (1 esu) = 1020 1011 1017
II. MAGNETIC FLUX
maxwell kiloline WEBER
1 maxwell =
1 0.001 10-8
(1 line or 1 emu)
1 kiloline = 1000 1 10-5
1 WEBER = 108 105 1
1 esu = 2.998 webers
II. MAGNETOMOTIVE FORCE
abamp-turn AMP-TURN gilbert
1 abamp-turn = 1 10 12.57
1 AMP-TURN = 0.100 1 1.257
1 gilbert = 7.958 0.7958 1
10-2
1 pragilbert = 4 pi amp-turn
1 esu = 2.655 10-11 amp-turn
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JJ. MAGNETIC FIELD STRENGTH, B
gauss
kiloline WEBER
milligauss gamma
METER 2
in 2
1 gauss (line per =
1 6.452 10-4 1000 105
cm2) 10-2
1 kiloline per in2 = 155.0 1
1.550 1.550 1.550
10-2 105 107
1 WEBER PER 104 64.52 1 107 109 2 =
METER
1 milligauss = 10-3 6.452 10-7
1 100
10-6
1 gamma = 10-5 6.452 10-9 10-2 1
10-8
1 esu = 2.998 106 weber/meter2 104 gauss = 1 tesla
KK. MAGNETIC VECTOR, H
abamp turn amp turn AMP TURN amp turn
cm
METER
in
cm
oersted
1 abampere-turn 1 10 1000 25.40 12.57 per centimeter =
1 ampere-turn =
0.100 1 100 2.54 1.257
per centimeter
1 AMPERE-TURN 10-3 10-2 1 2.540 1.257
PER METER = 10-2 10-2
1 ampere-turn 3.937 0.3937 39.37 1 0.4947 per inch = 10-2
1 oersted = 7.958
0.7958 79.58 2.021 1 10-2
1 oersted = 1 gilbert/cm
1 esu = 2.655 10-9 amp-turn/meter 1 praoersted = 4 pi amp-turn/meter
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8.0 ELECTROMAGNETIC CONSTANTS OF FREE SPACE
Maxwell was able to show analytically that the constant appearing in a wave equation
derived for free space (perfect vacuum), for the case e = c = 0 , was the square of the
velocity of propagation of electromagnetic waves in free space. The experiments of Hertz verified that this velocity was the velocity of light in free space and that
c2 = 1
0 0
where 0 is the permeability of free space and 0 is the permittivity of free space. This equation is true for any system of units; in the mksq system
c = 2.997925 108 meter/sec 0 = 1.256637 10-6 henry/meter 0 = 8.85416 10
-12 farad/meter
9.0 ELECTROMAGNETIC CONSTANTS OF MATERIALS
The permeability and permittivity of materials are usually given relative to the values of free space.
Relative permeability Magnetic Susceptibility
=
=1 + m 0
m m
Relative permittivity Electric Susceptibility
=
=1 + e 0
e e
(Dielectric constant)
When looking up values of electromagnetic constants of materials care must be taken to be sure what values are specified, i.e. , m or m and , e or e . The usual values given are e and m.
m is a number near unity and may be greater or less than unity; m may be positive or negative but is small compared to unity. e is always greater than unity and may be significantly larger than unity; e is always positive and may be large compared to unity:
m 1, m ~ 1 c 1
m 0, m > 1
dependent
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10.0 SOME IMPORTANT DIMENSIONAL CONSTANTS (mksq units)
Name Symbol Computational Value Best Experimental Value
Speed of light c 3.00 108 meter/sec (2.997930 0.000003) 108 Universal Gravitational Const. G 6.67 10-11 nt-m2/kgm2 (6.673 0.003) 10-11 Avogadros Number N0 6.02 10
23 /mole (6.02486 0.00016) 1023
Universal Gas Constant R 8.32 joule/mole K 8.31696 0.00034 Standard Volume of Ideal Gas 2.24 10-2 meter3 (2.24207 0.00006) 10-2 Plancks Constant h 6.63 10-34 joule/sec (6.62517 0.00023) 10-34 Boltzmanns Constant k 1.38 10-23 joule/K (1.38044 0.00007) 10-23 Mechanical Equiv. of Heat J 4.19 joule/cal 4.1855 0.0004 Triple Point of Water 273.16 K 273.16 K exactly Ice Point of Water 0 273.16 K 273.16 K 0.0002 Maximum Density of Water 1 gm/cm3 0.999973
(at 3.98C, 1 atm)
10-6 henry/meter 4pi 10-7 exactly Permeability of Free Space 1.26 0
10-12 farad/meter
0.00002) 10-12 Permittivity of Free Space 0 8.85 (8.85415 Electronic Charge e 1.60 10-19 coulomb (1.60206 0.00003) 10-19 Electronic Rest Mass m 9.11 10-31 kgm (9.1083 0.0003) 10-31 e
10-27 kgm
0.00004) 10-27 Proton Rest Mass m 1.67 (1.67239 p
10-27 kgm
0.00004) 10-27 Neutron Rest Mass m 1.67 (1.67470 n
Mass-Energy Relation c2 = E/m 8.99 1016 meter2/sec2 (8.98758 0.00003) 1016 Magnetic Moment of Electron 9.28 10-32 joule-m2/weber (9.2837 0.0002) 10-32 Compton Wavelength of Electron c 2.43 10
-12 meter (2.42626 0.00002) 10-12
First Bohr Orbit Radius in a0 5.29 10-11
meter (5.29172 0.00002) 10-11 Hydrogen Atom
10-8 joule/sec(K)4 meter2 (5.6687 0.0019) 10-8 Stefan-Boltzmann Const. 5.67
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11.0. SOME IMPORTANT DIMENSIONLESS GROUPS
Name Group Field of Use
Biot (Bi) = hL/k Conduction heat transfer
Euler (Eu) = p/V2 Fluid mechanics
Fourier (Fo) = /L2 Conduction heat transfer
Froude (Fr) = V Lg Fluid mechanics
Graetz (Grz) = w&cp/kL Heat transfer, free convection
Grashof (Grf) = L3 2gt/2 Heat transfer, free convection
Hartmann (Ha) = (c B02 L2 / )1/ 2 MHD
Knudsen (Kn) = /L Fluid mech., rarified gas flow
Lewis (Le) = (Sc)/(Pr) = /D Conv. heat & mass transfer
Mach (M) = V/a High speed flow
Nusselt (Nu) = hL/k Convection heat transfer
Pclet (Pe) = (Re)(Pr) Convection heat transfer
Prandtl (Pr) = cp/k Convection heat transfer
Reynolds (Re) = VL/ Fluid mech., heat transfer
Magnetic Reynolds (Re)m = c VL MHD
Schmidt (Sc) = /D Conv. heat & mass transfer
Stanton (St) = h/cp V Convection heat transfer
Weber (We) = V2L/ Fluid mechanics, free surface
(N) = (Ha)2/(Re) MHD
(S) = (Ha)2/(Re)(Re)m MHD
Symbols:
B0 Applied mag. field - Mean free path (molecular)
D Diffusion coefficient t Temperature difference
L Characteristic length w& - Mass rate of flow
V Fluid velocity cp Specific heat (const. pressure)
a Acoustic velocity - Thermal diffusivity
g Gravity - Thermal expansion coefficient
h Heat transfer coefficient - Surface tension
k Thermal conductivity c Electric conductivity
p Static pressure - Viscosity or magnetic permeability
Density - Time interval
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12.0 THE PERFECT GAS LAW
A. NOMENCLATURE, DEFINITIONS, AND EQUATIONS
In the following discussion the elementary particle under consideration is the molecule. Care must be taken to use consistent units, especially to make the proper distinction between mass and weight units. The units of the gas constant must be consistent with those used for density or specific volume.
NOMENCLATURE:
Symbol Definition in cgs Units
Density in grams per cm3 k Boltzmanns Constant in ergs/molecule K
m Mass of molecule in grams n Particle Number Density in molecules/cm3 p Pressure in dynes/ cm2 Specific Volume in cm3 per gram N Specific Molar Volume in cm
3 /gm-mole
M Molecular Weight in gm/gm-mole N Number of moles N0 Avogadros Number, no. of molecules per gm-mole
R Gas Constant in ergs/gm K R0 Universal Gas Constant in ergs/gm-mole K
T Absolute Temperature, degrees Kelvin V Total Volume in cubic centimeters W Weight of Gas in grams
Avogadros Law: All ideal gases at the same temperature and pressure have the same specific molar volume. At STP (0C, 1 atm), N = 22.4 liters/gm- mole = 22400 cm
3/gm-mole = 359 ft 3/lb-mole. At the same temperature and pressure all ideal gases contain the same number of molecules per unit volume.
Definition of the mole: The gm-mole is the amount of an ideal gas which will occupy the same volume as 32 gm of oxygen at STP; the pound-mole is similarly related to 32 lb of oxygen. The weight of a mole of gas is numerically equal to the molecular weight of the gas.
Forms of the Perfect Gas Law: p = RT = nkT
p = RT
pN =R0T pV = WRT = N R0T
Useful Relations:
= nm N0 = nN
m = M/N0 N = V/N
R = R0/M N = W/M
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27
R0 = N0 k
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28
B. VALUES OF UNIVERSAL GAS CONSTANT, BOLTZMANNS CONSTANT AND AVOGADROS NUMBER IN DIFFERENT UNITS
Units R0 ft-lb/lb-mole R 1544 ft-lb/lb-mole K 2779 ft-lb/lb-mole R 3.407 Btu/lb-mole R 1.987 ft3 atm/lb-mole R 0.729 ft3 atm/lb-mole K 1.315
Units k ergs/molecule K 1.38 10-16 JOULES/MOLECULE K 1.38 10-23 ft-lb/molecule R 5.655 10-24
Btu/molecule R 7.267 10-27
1 atm = 1.013 106 dynes/cm2 1 erg = 1 dyne-cm
Units R0
cal/gm-mole K 1.987
cm3 atm/gm-mole K 82.06
liter atm/gm-mole K 0.08206
ergs/gm-mole K 8.313 107
JOULES/KGM-MOLE K 8313
psia ft3/lb-mole R 10.71
Units N0 1023
molecules/gm-mole 6.023
MOLECULES/KGM-MOLE 6.023 1026
molecules/lb-mole 2.73 1026
1 erg = 10-7 joule 1 ft-lb = 1.356 107 ergs
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